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Theoretical Models in support of RPWI

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Theoretical Models in support of RPWI Io Ganymede Europa I. Mueller-Wodarg Imperial College London Plasma environment Europa Ganymede Callisto Bo (nT) 370-460 64-113 ... – PowerPoint PPT presentation

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Title: Theoretical Models in support of RPWI


1
Theoretical Modelsin support of RPWI
Io
Ganymede
Europa
  • I. Mueller-Wodarg
  • Imperial College London

2
Plasma environment
Europa Ganymede Callisto
Bo (nT) 370-460 64-113 4-42
Ne (cm-3) 18-250 1-10 0.01-0.70
Ti (eV) 50-400 10-100 10-100
Te (eV) 100 300 500
Orbital vel (km/s) 14 11 8
Plasma vel (km/s) 70-100 95-163 130-280
Alfvén speed (km/s) 145-700 130-1700 230-4400
Ped conductance (S) 30 2 1000
Plasma freq e- (kHz) 38-140 9-28 0.9-7.5
Plasma freq ions (Hz) 260-4300 150-4200 15-7300
Ion gyroradius (km) 8-12 36-13 530-34
Pickup ion gyro-r (km) 19-15 200-110 4200-400
3
Atmospheres of Galilean Moons
  • Formation Sputtering
  • Surface sputtering by magnetospheric ions
    (primary)
  • Sputtering by ionospheric pickup ions
    accelerated by corotation electric field
    (secondary)
  • Loss
  • Thermal escape (Jeans escape)
  • Ionization, pickup
  • Atmospheric sputtering trajectories outside
    exobase

4
Atmosphere properties
Europa Ganymede Callisto

O2 (cm-2) 2.4-14 x 1014 (1-10) x 1014 3 x 1016 (?)
O (cm-2) lt 1013 (?) lt 1013
CO2 (cm-2) (?) (?) 8 x 1014
Na (cm-2) 4 x 109 (5 RE) lt 108 (3-6 RG) (?)
H (cm-2) (?) 2.4 x 1012 (?)
Ionosphere 104 cm-3 (need illumination of trailing hemisph) 102 cm-3 2 x 104 cm-3
  • Atmospheres ionospheres highly variable
  • Self-regulation enhanced neutral densities lead
    to larger ionosphere densities, hence stronger
    currents reduced ionospheric E-field increases
    shielding reduces sputtering

5
Europa
Kliore et al. (1997)
6
Ganymede
Eviatar et al. (2001)
7
Callisto
Kliore et al. (2002)
8
Approaches for simulating plasma environment and
atmospheres
  • Analytical solutions not possible
  • Atmospheres Monte Carlo codes
  • Plasma magnetic environment MHD and Hybrid
    models
  • Atmosphere-magnetosphere interaction Monte Carlo
    model combined with fixed B field

9
Moon atmosphere models
  • Europa
  • Ip (1996) Europa O2 exosphere model
  • Saur et al. (1998) neutral atmosphere and plasma
    interaction model for Europa
  • Kabin et al. (1999)
  • Liu et al. (2000)
  • Shematovich and Johnson (2001) 1D Monte Carlo
    Europa oxygen model
  • Smyth and Marconi (2006) (2D Monte Carlo model)

10
Moon atmosphere models
  • Callisto
  • Liang et al. (2005)
  • Ganymede
  • Yung and McElroy (1977)
  • Purves and Pilcher (1980)
  • Wong et al. (1999) (2D)
  • Marconi (2007) (Multi-species, 2D)

11
Atmosphere-Magnetosphere Models
  • Ganymede
  • Stone and Armstrong (2001) (MHD)
  • Kopp and Ip (2002) (MHD)
  • Paty and Winglee (2004) (Multi-fluid)
  • Europa
  • Saur et al. (1998)
  • Kabin et al. (1999)
  • Liu et al. (2000)
  • Zimmer et al. (2000)
  • Schilling et al. (2007)

12
Other models
  • Mercury magnetosphere hybrid model (Trávnícek et
    al., 2009)
  • Enceladus, Titan?

13
Needs for RPWI
  • Engineering models for moon neutral atmosphere
    and ionosphere densities
  • Average B field engineering model describing
    vicinity of Galilean moons
  • E field model
  • Software for interfacing simulated RPWI with
    atmosphere plasma environment models
  • Any more?
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